5 Must Know Facts For Your Next Test

1. Cisternae are primarily located in the rough and smooth endoplasmic reticulum as well as the Golgi apparatus, where they facilitate protein synthesis and modification.
2. The arrangement of cisternae helps to create distinct internal environments that are critical for different stages of protein processing.
3. In the Golgi apparatus, cisternae undergo a process called cisternal maturation, where they progressively change from one type to another as they process proteins.
4. Cisternae contain enzymes necessary for post-translational modifications, such as glycosylation, which is essential for proper protein function.
5. The movement of proteins through cisternae involves vesicular transport, where vesicles bud off from one cisterna and fuse with another to transfer their contents.

Review Questions

• How do cisternae contribute to the overall function of the endoplasmic reticulum and Golgi apparatus in a cell?
  • Cisternae play a vital role in both the endoplasmic reticulum and Golgi apparatus by providing a structured environment for protein synthesis, modification, and sorting. In the rough ER, cisternae house ribosomes that synthesize proteins, while in the Golgi apparatus, they facilitate further processing and packaging of these proteins. This compartmentalization ensures that various enzymatic activities occur efficiently at each stage of protein handling.
• Discuss the significance of cisternal maturation in the Golgi apparatus regarding protein processing.
  • Cisternal maturation is significant because it allows each cisterna within the Golgi apparatus to gradually change its identity and function as it processes proteins. As a cisterna matures from the cis face to the trans face of the Golgi, it becomes equipped with different enzymes necessary for specific modifications such as glycosylation. This dynamic process ensures that proteins are properly processed before being sorted and sent to their final destinations.
• Evaluate how disruptions in the structure or function of cisternae could impact cellular processes related to protein transport and modification.
  • Disruptions in cisternae can lead to significant cellular dysfunctions by impeding proper protein transport and modification. If cisternae are malformed or if there is a deficiency in necessary enzymes, proteins may not undergo essential modifications like glycosylation or may not be sorted correctly for delivery. This can result in misfolded proteins accumulating within the cell or being secreted improperly, potentially causing diseases or cellular malfunctions that affect overall organism health.

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